When some people drink alcohol, the neurotransmitter dopamine is released in the brain, which leads to feelings of euphoria and can contribute to alcohol cravings and dependency. But alcohol doesn’t affect everyone in the same way–some people can drink occasionally and not become dependent, whereas others can become almost immediately hooked.
In an effort to find out why alcohol affects people differently, researchers from the National Institute on Alcohol Abuse and Alcoholism (NIAAA) found that a genetic variant of a receptor in the brain’s reward circuitry could determine whether dopamine is released in the brain following alcohol intake. The study appeared online in Molecular Psychiatry.
“By advancing our understanding of the neurobiology that underlies the addictive properties of alcohol, this finding helps us understand why alcohol affects people in very different ways. This kind of information also aids the development of personalized medications for alcohol problems," said NIAAA Acting Director Dr. Kenneth R. Warren.
Receptors for brain molecules known as opioid peptides help initiate the neurochemical reactions that underlie the positive effects produced by alcohol, and activation of the mu-subtype of opioid receptor following alcohol consumption triggers the release of dopamine from the forebrain.
"But there is much variation in alcohol-induced responses that are thought to be related to dopamine. Previous studies by our group and others suggest that variants of opioid genes may contribute to the observed variation, possibly through effects on alcohol-induced dopamine release," said Dr. Markus Heilig, noting that people who carry the mu-opioid receptor variant designated as 118G report increased euphoria following alcohol consumption.
Heilig’s group reported that a similar mu-opioid receptor variant in monkeys heightened the stimulating effects of alcohol and increased their alcohol consumption.
First author Dr. Vijay A. Ramchandani and colleagues explored whether the 118G mu-opioid receptor variant influences dopamine release from a forebrain region called the ventral striatum in response to alcohol.
Using human positron emission tomography (PET), an imaging technique that allowed the researchers to analyze dopamine activity in the brain, the researchers compared dopamine release in two groups of people that had been given alcohol.
The groups consisted of those who carried a copy of the gene for the 118G mu-opioid receptor variant, and those who carried only genes for the more common 118A variant.
The researchers found that only people with the 118G variant had a dopamine response to alcohol, and that no such response happened in subjects with the 118A receptor variant.
"Taken together, our data strongly support a causal role of the 118G variant of the mu-opioid receptor to confer a more vigorous dopamine response to alcohol in the ventral striatum. The findings add further support to the notion that individuals who possess this receptor variant may experience enhanced pleasurable effects from alcohol that could increase their risk for developing alcohol abuse and dependence. It may also explain why these individuals, once addicted, benefit more from treatment with blockers of endogenous opioids," said Ramchandani.
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